# Natural Language Toolkit: Verbnet Corpus Reader
#
# Copyright (C) 2001-2018 NLTK Project
# Author: Edward Loper <edloper@gmail.com>
# URL: <http://nltk.org/>
# For license information, see LICENSE.TXT

"""
An NLTK interface to the VerbNet verb lexicon

For details about VerbNet see:
https://verbs.colorado.edu/~mpalmer/projects/verbnet.html
"""
from __future__ import unicode_literals

import re
import textwrap
from collections import defaultdict

from six import string_types

from nltk.corpus.reader.xmldocs import XMLCorpusReader


class VerbnetCorpusReader(XMLCorpusReader):
    """
    An NLTK interface to the VerbNet verb lexicon.

    From the VerbNet site: "VerbNet (VN) (Kipper-Schuler 2006) is the largest
    on-line verb lexicon currently available for English. It is a hierarchical
    domain-independent, broad-coverage verb lexicon with mappings to other
    lexical resources such as WordNet (Miller, 1990; Fellbaum, 1998), XTAG
    (XTAG Research Group, 2001), and FrameNet (Baker et al., 1998)."

    For details about VerbNet see:
    https://verbs.colorado.edu/~mpalmer/projects/verbnet.html
    """

    # No unicode encoding param, since the data files are all XML.
    def __init__(self, root, fileids, wrap_etree=False):
        XMLCorpusReader.__init__(self, root, fileids, wrap_etree)

        self._lemma_to_class = defaultdict(list)
        """A dictionary mapping from verb lemma strings to lists of
        VerbNet class identifiers."""

        self._wordnet_to_class = defaultdict(list)
        """A dictionary mapping from wordnet identifier strings to
        lists of VerbNet class identifiers."""

        self._class_to_fileid = {}
        """A dictionary mapping from class identifiers to
        corresponding file identifiers.  The keys of this dictionary
        provide a complete list of all classes and subclasses."""

        self._shortid_to_longid = {}

        # Initialize the dictionaries.  Use the quick (regexp-based)
        # method instead of the slow (xml-based) method, because it
        # runs 2-30 times faster.
        self._quick_index()

    _LONGID_RE = re.compile(r'([^\-\.]*)-([\d+.\-]+)$')
    """Regular expression that matches (and decomposes) longids"""

    _SHORTID_RE = re.compile(r'[\d+.\-]+$')
    """Regular expression that matches shortids"""

    _INDEX_RE = re.compile(
        r'<MEMBER name="\??([^"]+)" wn="([^"]*)"[^>]+>|' r'<VNSUBCLASS ID="([^"]+)"/?>'
    )
    """Regular expression used by ``_index()`` to quickly scan the corpus
       for basic information."""

    def lemmas(self, vnclass=None):
        """
        Return a list of all verb lemmas that appear in any class, or
        in the ``classid`` if specified.
        """
        if vnclass is None:
            return sorted(self._lemma_to_class.keys())
        else:
            # [xx] should this include subclass members?
            if isinstance(vnclass, string_types):
                vnclass = self.vnclass(vnclass)
            return [member.get('name') for member in vnclass.findall('MEMBERS/MEMBER')]

    def wordnetids(self, vnclass=None):
        """
        Return a list of all wordnet identifiers that appear in any
        class, or in ``classid`` if specified.
        """
        if vnclass is None:
            return sorted(self._wordnet_to_class.keys())
        else:
            # [xx] should this include subclass members?
            if isinstance(vnclass, string_types):
                vnclass = self.vnclass(vnclass)
            return sum(
                [
                    member.get('wn', '').split()
                    for member in vnclass.findall('MEMBERS/MEMBER')
                ],
                [],
            )

    def classids(self, lemma=None, wordnetid=None, fileid=None, classid=None):
        """
        Return a list of the VerbNet class identifiers.  If a file
        identifier is specified, then return only the VerbNet class
        identifiers for classes (and subclasses) defined by that file.
        If a lemma is specified, then return only VerbNet class
        identifiers for classes that contain that lemma as a member.
        If a wordnetid is specified, then return only identifiers for
        classes that contain that wordnetid as a member.  If a classid
        is specified, then return only identifiers for subclasses of
        the specified VerbNet class.
        If nothing is specified, return all classids within VerbNet
        """
        if fileid is not None:
            return [c for (c, f) in self._class_to_fileid.items() if f == fileid]
        elif lemma is not None:
            return self._lemma_to_class[lemma]
        elif wordnetid is not None:
            return self._wordnet_to_class[wordnetid]
        elif classid is not None:
            xmltree = self.vnclass(classid)
            return [
                subclass.get('ID')
                for subclass in xmltree.findall('SUBCLASSES/VNSUBCLASS')
            ]
        else:
            return sorted(self._class_to_fileid.keys())

    def vnclass(self, fileid_or_classid):
        """Returns VerbNet class ElementTree

        Return an ElementTree containing the xml for the specified
        VerbNet class.

        :param fileid_or_classid: An identifier specifying which class
            should be returned.  Can be a file identifier (such as
            ``'put-9.1.xml'``), or a VerbNet class identifier (such as
            ``'put-9.1'``) or a short VerbNet class identifier (such as
            ``'9.1'``).
        """
        # File identifier: just return the xml.
        if fileid_or_classid in self._fileids:
            return self.xml(fileid_or_classid)

        # Class identifier: get the xml, and find the right elt.
        classid = self.longid(fileid_or_classid)
        if classid in self._class_to_fileid:
            fileid = self._class_to_fileid[self.longid(classid)]
            tree = self.xml(fileid)
            if classid == tree.get('ID'):
                return tree
            else:
                for subclass in tree.findall('.//VNSUBCLASS'):
                    if classid == subclass.get('ID'):
                        return subclass
                else:
                    assert False  # we saw it during _index()!

        else:
            raise ValueError('Unknown identifier {}'.format(fileid_or_classid))

    def fileids(self, vnclass_ids=None):
        """
        Return a list of fileids that make up this corpus.  If
        ``vnclass_ids`` is specified, then return the fileids that make
        up the specified VerbNet class(es).
        """
        if vnclass_ids is None:
            return self._fileids
        elif isinstance(vnclass_ids, string_types):
            return [self._class_to_fileid[self.longid(vnclass_ids)]]
        else:
            return [
                self._class_to_fileid[self.longid(vnclass_id)]
                for vnclass_id in vnclass_ids
            ]

    def frames(self, vnclass):
        """Given a VerbNet class, this method returns VerbNet frames

        The members returned are:
        1) Example
        2) Description
        3) Syntax
        4) Semantics

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        :return: frames - a list of frame dictionaries
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)
        frames = []
        vnframes = vnclass.findall('FRAMES/FRAME')
        for vnframe in vnframes:
            frames.append(
                {
                    'example': self._get_example_within_frame(vnframe),
                    'description': self._get_description_within_frame(vnframe),
                    'syntax': self._get_syntactic_list_within_frame(vnframe),
                    'semantics': self._get_semantics_within_frame(vnframe),
                }
            )
        return frames

    def subclasses(self, vnclass):
        """Returns subclass ids, if any exist

        Given a VerbNet class, this method returns subclass ids (if they exist)
        in a list of strings.

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        :return: list of subclasses
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)

        subclasses = [
            subclass.get('ID') for subclass in vnclass.findall('SUBCLASSES/VNSUBCLASS')
        ]
        return subclasses

    def themroles(self, vnclass):
        """Returns thematic roles participating in a VerbNet class

        Members returned as part of roles are-
        1) Type
        2) Modifiers

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        :return: themroles: A list of thematic roles in the VerbNet class
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)

        themroles = []
        for trole in vnclass.findall('THEMROLES/THEMROLE'):
            themroles.append(
                {
                    'type': trole.get('type'),
                    'modifiers': [
                        {'value': restr.get('Value'), 'type': restr.get('type')}
                        for restr in trole.findall('SELRESTRS/SELRESTR')
                    ],
                }
            )
        return themroles

    ######################################################################
    # { Index Initialization
    ######################################################################

    def _index(self):
        """
        Initialize the indexes ``_lemma_to_class``,
        ``_wordnet_to_class``, and ``_class_to_fileid`` by scanning
        through the corpus fileids.  This is fast with cElementTree
        (<0.1 secs), but quite slow (>10 secs) with the python
        implementation of ElementTree.
        """
        for fileid in self._fileids:
            self._index_helper(self.xml(fileid), fileid)

    def _index_helper(self, xmltree, fileid):
        """Helper for ``_index()``"""
        vnclass = xmltree.get('ID')
        self._class_to_fileid[vnclass] = fileid
        self._shortid_to_longid[self.shortid(vnclass)] = vnclass
        for member in xmltree.findall('MEMBERS/MEMBER'):
            self._lemma_to_class[member.get('name')].append(vnclass)
            for wn in member.get('wn', '').split():
                self._wordnet_to_class[wn].append(vnclass)
        for subclass in xmltree.findall('SUBCLASSES/VNSUBCLASS'):
            self._index_helper(subclass, fileid)

    def _quick_index(self):
        """
        Initialize the indexes ``_lemma_to_class``,
        ``_wordnet_to_class``, and ``_class_to_fileid`` by scanning
        through the corpus fileids.  This doesn't do proper xml parsing,
        but is good enough to find everything in the standard VerbNet
        corpus -- and it runs about 30 times faster than xml parsing
        (with the python ElementTree; only 2-3 times faster with
        cElementTree).
        """
        # nb: if we got rid of wordnet_to_class, this would run 2-3
        # times faster.
        for fileid in self._fileids:
            vnclass = fileid[:-4]  # strip the '.xml'
            self._class_to_fileid[vnclass] = fileid
            self._shortid_to_longid[self.shortid(vnclass)] = vnclass
            for m in self._INDEX_RE.finditer(self.open(fileid).read()):
                groups = m.groups()
                if groups[0] is not None:
                    self._lemma_to_class[groups[0]].append(vnclass)
                    for wn in groups[1].split():
                        self._wordnet_to_class[wn].append(vnclass)
                elif groups[2] is not None:
                    self._class_to_fileid[groups[2]] = fileid
                    vnclass = groups[2]  # for <MEMBER> elts.
                    self._shortid_to_longid[self.shortid(vnclass)] = vnclass
                else:
                    assert False, 'unexpected match condition'

    ######################################################################
    # { Identifier conversion
    ######################################################################

    def longid(self, shortid):
        """Returns longid of a VerbNet class

        Given a short VerbNet class identifier (eg '37.10'), map it
        to a long id (eg 'confess-37.10').  If ``shortid`` is already a
        long id, then return it as-is"""
        if self._LONGID_RE.match(shortid):
            return shortid  # it's already a longid.
        elif not self._SHORTID_RE.match(shortid):
            raise ValueError('vnclass identifier %r not found' % shortid)
        try:
            return self._shortid_to_longid[shortid]
        except KeyError:
            raise ValueError('vnclass identifier %r not found' % shortid)

    def shortid(self, longid):
        """Returns shortid of a VerbNet class

        Given a long VerbNet class identifier (eg 'confess-37.10'),
        map it to a short id (eg '37.10').  If ``longid`` is already a
        short id, then return it as-is."""
        if self._SHORTID_RE.match(longid):
            return longid  # it's already a shortid.
        m = self._LONGID_RE.match(longid)
        if m:
            return m.group(2)
        else:
            raise ValueError('vnclass identifier %r not found' % longid)

    ######################################################################
    # { Frame access utility functions
    ######################################################################

    def _get_semantics_within_frame(self, vnframe):
        """Returns semantics within a single frame

        A utility function to retrieve semantics within a frame in VerbNet
        Members of the semantics dictionary:
        1) Predicate value
        2) Arguments

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        :return: semantics: semantics dictionary
        """
        semantics_within_single_frame = []
        for pred in vnframe.findall('SEMANTICS/PRED'):
            arguments = [
                {'type': arg.get('type'), 'value': arg.get('value')}
                for arg in pred.findall('ARGS/ARG')
            ]
            semantics_within_single_frame.append(
                {'predicate_value': pred.get('value'), 'arguments': arguments}
            )
        return semantics_within_single_frame

    def _get_example_within_frame(self, vnframe):
        """Returns example within a frame

        A utility function to retrieve an example within a frame in VerbNet.

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        :return: example_text: The example sentence for this particular frame
        """
        example_element = vnframe.find('EXAMPLES/EXAMPLE')
        if example_element is not None:
            example_text = example_element.text
        else:
            example_text = ""
        return example_text

    def _get_description_within_frame(self, vnframe):
        """Returns member description within frame

        A utility function to retrieve a description of participating members
        within a frame in VerbNet.

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        :return: description: a description dictionary with members - primary and secondary
        """
        description_element = vnframe.find('DESCRIPTION')
        return {
            'primary': description_element.attrib['primary'],
            'secondary': description_element.get('secondary', ''),
        }

    def _get_syntactic_list_within_frame(self, vnframe):
        """Returns semantics within a frame

        A utility function to retrieve semantics within a frame in VerbNet.
        Members of the syntactic dictionary:
        1) POS Tag
        2) Modifiers

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        :return: syntax_within_single_frame
        """
        syntax_within_single_frame = []
        for elt in vnframe.find('SYNTAX'):
            pos_tag = elt.tag
            modifiers = dict()
            modifiers['value'] = elt.get('value') if 'value' in elt.attrib else ""
            modifiers['selrestrs'] = [
                {'value': restr.get('Value'), 'type': restr.get('type')}
                for restr in elt.findall('SELRESTRS/SELRESTR')
            ]
            modifiers['synrestrs'] = [
                {'value': restr.get('Value'), 'type': restr.get('type')}
                for restr in elt.findall('SYNRESTRS/SYNRESTR')
            ]
            syntax_within_single_frame.append(
                {'pos_tag': pos_tag, 'modifiers': modifiers}
            )
        return syntax_within_single_frame

    ######################################################################
    # { Pretty Printing
    ######################################################################

    def pprint(self, vnclass):
        """Returns pretty printed version of a VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet class.

        :param vnclass: A VerbNet class identifier; or an ElementTree
        containing the xml contents of a VerbNet class.
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)

        s = vnclass.get('ID') + '\n'
        s += self.pprint_subclasses(vnclass, indent='  ') + '\n'
        s += self.pprint_members(vnclass, indent='  ') + '\n'
        s += '  Thematic roles:\n'
        s += self.pprint_themroles(vnclass, indent='    ') + '\n'
        s += '  Frames:\n'
        s += self.pprint_frames(vnclass, indent='    ')
        return s

    def pprint_subclasses(self, vnclass, indent=''):
        """Returns pretty printed version of subclasses of VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet class's subclasses.

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)

        subclasses = self.subclasses(vnclass)
        if not subclasses:
            subclasses = ['(none)']
        s = 'Subclasses: ' + ' '.join(subclasses)
        return textwrap.fill(
            s, 70, initial_indent=indent, subsequent_indent=indent + '  '
        )

    def pprint_members(self, vnclass, indent=''):
        """Returns pretty printed version of members in a VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet class's member verbs.

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)

        members = self.lemmas(vnclass)
        if not members:
            members = ['(none)']
        s = 'Members: ' + ' '.join(members)
        return textwrap.fill(
            s, 70, initial_indent=indent, subsequent_indent=indent + '  '
        )

    def pprint_themroles(self, vnclass, indent=''):
        """Returns pretty printed version of thematic roles in a VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet class's thematic roles.

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)

        pieces = []
        for themrole in self.themroles(vnclass):
            piece = indent + '* ' + themrole.get('type')
            modifiers = [
                modifier['value'] + modifier['type']
                for modifier in themrole['modifiers']
            ]
            if modifiers:
                piece += '[{}]'.format(' '.join(modifiers))
            pieces.append(piece)
        return '\n'.join(pieces)

    def pprint_frames(self, vnclass, indent=''):
        """Returns pretty version of all frames in a VerbNet class

        Return a string containing a pretty-printed representation of
        the list of frames within the VerbNet class.

        :param vnclass: A VerbNet class identifier; or an ElementTree
            containing the xml contents of a VerbNet class.
        """
        if isinstance(vnclass, string_types):
            vnclass = self.vnclass(vnclass)
        pieces = []
        for vnframe in self.frames(vnclass):
            pieces.append(self._pprint_single_frame(vnframe, indent))
        return '\n'.join(pieces)

    def _pprint_single_frame(self, vnframe, indent=''):
        """Returns pretty printed version of a single frame in a VerbNet class

        Returns a string containing a pretty-printed representation of
        the given frame.

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        """
        frame_string = self._pprint_description_within_frame(vnframe, indent) + '\n'
        frame_string += self._pprint_example_within_frame(vnframe, indent + ' ') + '\n'
        frame_string += (
            self._pprint_syntax_within_frame(vnframe, indent + '  Syntax: ') + '\n'
        )
        frame_string += indent + '  Semantics:\n'
        frame_string += self._pprint_semantics_within_frame(vnframe, indent + '    ')
        return frame_string

    def _pprint_example_within_frame(self, vnframe, indent=''):
        """Returns pretty printed version of example within frame in a VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet frame example.

        :param vnframe: An ElementTree containing the xml contents of
            a Verbnet frame.
        """
        if vnframe['example']:
            return indent + ' Example: ' + vnframe['example']

    def _pprint_description_within_frame(self, vnframe, indent=''):
        """Returns pretty printed version of a VerbNet frame description

        Return a string containing a pretty-printed representation of
        the given VerbNet frame description.

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        """
        description = indent + vnframe['description']['primary']
        if vnframe['description']['secondary']:
            description += ' ({})'.format(vnframe['description']['secondary'])
        return description

    def _pprint_syntax_within_frame(self, vnframe, indent=''):
        """Returns pretty printed version of syntax within a frame in a VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet frame syntax.

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        """
        pieces = []
        for element in vnframe['syntax']:
            piece = element['pos_tag']
            modifier_list = []
            if 'value' in element['modifiers'] and element['modifiers']['value']:
                modifier_list.append(element['modifiers']['value'])
            modifier_list += [
                '{}{}'.format(restr['value'], restr['type'])
                for restr in (
                    element['modifiers']['selrestrs']
                    + element['modifiers']['synrestrs']
                )
            ]
            if modifier_list:
                piece += '[{}]'.format(' '.join(modifier_list))
            pieces.append(piece)

        return indent + ' '.join(pieces)

    def _pprint_semantics_within_frame(self, vnframe, indent=''):
        """Returns a pretty printed version of semantics within frame in a VerbNet class

        Return a string containing a pretty-printed representation of
        the given VerbNet frame semantics.

        :param vnframe: An ElementTree containing the xml contents of
            a VerbNet frame.
        """
        pieces = []
        for predicate in vnframe['semantics']:
            arguments = [argument['value'] for argument in predicate['arguments']]
            pieces.append(
                '{}({})'.format(predicate['predicate_value'], ', '.join(arguments))
            )
        return '\n'.join('{}* {}'.format(indent, piece) for piece in pieces)
